SE531825C2 - Boxes for a dispenser housing at a seed drill - Google Patents

Description

BRIEF DESCRIPTION OF THE INVENTION The object is achieved by a device according to the characterizing part of claim 1.

The subclaims state advantageous embodiments of the invention.

By making the rotor in such a way that its diameter decreases with increasing torque, the pea locking can be largely or completely avoided, the rotor becomes almost or completely locked. The outer part of the rotor is suitably made of a slightly resilient (semi-hard) material.

The rotor has a structure where a carrier core has axial grooves and the rotor has corresponding axial inwardly directed cams, which engage in the rotor or its length.

This means that when the core of the rotor rotates and the rotor is prevented from rotating, the axial cores are tilted and the diarrhea system decreases slightly. By making the rotor and core symmetrical, the same rotor can be used for both rotation to the right and to the left. This is an important advantage as the housings can be mounted on the machines in the right and left end for the greatest possible user-friendliness. It is a task for the person skilled in the art to choose wall thicknesses and materials that optimize the function.

LIST OF FIGURES The invention is described in more detail below with reference to the accompanying drawings, which show preferred embodiments.

Figure 1 shows a perspective view of a dispenser housing at an agricultural machine with a rotor according to the invention. .

Figure 2 shows a sectioned perspective view from above of the exhaust housing in fi g. l.

Figure 3 shows a cross section of the rotor in fi g. L mounted on a hub.

Figure 4 shows a view similar to that in fi g. 3, where the rotor is loaded.

DESCRIPTION OF PREFERRED EMBODIMENTS I fi g. 1 and 2 show a dispenser housing 1, which is intended to be mounted at the bottom of a container (not shown) for seed or other granular material, hereinafter referred to as seed. The dispenser housing 1 comprises a housing 2 and a pipe socket 3 (so-called ejector part_ of the dispenser housing 1) attached to the housing for connection to a pipe for pneumatic transport of seed to the seed drill distributor. The seed is dosed by means of a rotor 4 according to the invention, which along its circumference preferably has half-cylindrical depressions 5, which with the circular ends 6 * of the rotor 4 and the inner wall of the housing facing the rotor 4 at 7 form chambers for dosing seed. A motor 8 for driving the rotor 4 is mounted in the housing 2 with its drive shaft substantially parallel to the center axis 9 of the rotor. An electric cable 10 is connected to the motor 8 for its drive. In the 2 one side gables of the house ll _ 10 15 20 25 30 35 8 Pill EF! are holes 12 and 13 for mounting the motor 8 resp. the rotor 4. Additional holes 12 and 13 of corresponding diameter are accommodated on the opposite side end 14 of the housing 2. gear 15 with gears 16. At one of the gears 15 of the gear 15, which is connected to the rotor 4, a partially shown arm 17 is articulated mounted to perform an upward and downward movement about a pivot point. The arm is connected to a U-shaped stirrer 18 stored inside the ends of the housing inside the housing 2, which consequently performs a reciprocating rotating movement to counteract clumping of seed at the rotor 4. The drive shaft of the motor 8 is rotatably connected to at least one gear in the gear The rotor 4 consists of an outer dosing part 19 of elastic material, for example a rubber, and a hub part 20 of rigid material, for example a metal or a hard plastic. The hub part 20 of the rotor 4 is fixedly mounted on a tubular shaft 21, which is threaded on the center shaft 9 of the rotor 4, which is rotatably connected to at least one gear in the gear gear 15. A locking pin 22 is passed through a hole in the center shaft 21 for locking of the rotor 4 in the housing 2.

This arrangement is arranged to be able to easily change the rotor 4 for a rotor with a different dosage or to clean around the rotor.

On the side 23 of the housing 2 from the socket 13 there is an opening, on the opposite sides of which grooves 24, 25 are arranged to receive an emptying hatch 26 for emptying seed when changing rotor 4 or for cleaning.

I fi g. 3 and 4, the rotor 4 is shown on a larger scale drawn inside an imaginary circle 27, where the radius of the circle is equal in fi g. 3 and 4. .

The depressions 5 meet at the outer edges 30, which in the normal position (without load) lie along the imaginary circle 27. The dosing part is preferably injection-molded or molded in one piece.

The hub part 20 consists of outer, releasable ends 31 connected via an intermediate cylindrical part 32, which has longitudinal recesses 33, the cross-sectional shape of which corresponds to the cross-sectional shape of the bars 28 and the shafts 29 on the dosing part 19. The dosing part 19 is mounted on the hub part 20 by removing one end 31 and then insert the booms 28 and the mounting ribs 29 into the recesses 33 from one end of the cylindrical part 32, after which the end 3] is mounted again. The hub part 20 is preferably extruded in one piece. 10 15 20 25 åfišåi 825 I fi g. 3 and 4 show ten recesses 5 and the same number of bars 28. These numbers can of course be varied within the scope of the claims and there need not be as many recesses 33 as bars 28. On the other hand, the bars 28 over the circumference should be substantially equally distributed in order to the rotation according to fi g. 4 shall be uniform over the periphery of the rotor 4.

In the event that a granulate or a lump of granules or other obstacle would press against the periphery of the dosing part 19 during its rotation, for example when the rotor 4 rotates past the wall 7 of the housing 2 (see fi g. 2), the bars 28 are forced to bend as shown in fi g. 4 and at the same time the diameter of the rotor 4 decreases a distance a relative to the imaginary circle 27. When the obstacle has been passed or dissolved, the diameter of the rotor 4 returns through the elasticity of the material of the dosing part 19 to the original, as shown in fi g. In reality, the diameter of the dosing part 19 decreases around the place where the torque occurred due to the nature of the material. If braking should occur in fl your places at the same time, the diameter is reduced at at least at these places. When braking at the fl ertal place, the diameter of the rotor along the entire circumference 'can decrease substantially as shown in fi g. 4. The material in the dosing part 19 of the rotor 4 must be chosen with care so that the right properties are obtained. It is important that there is some rigidity and an ability to quickly return to its original shape when rotated according to fi g. At the same time, the material must be durable and withstand many twists without losing its original shape.

The invention can be varied in a number of different ways within the scope of the appended claims, although the desiccation forms described above are preferred. For example, the shape of the preferably semi-cylindrical dry pits 5 may be different.

Claims (7)

10 15 20 25 30 53% EEE PATENT REQUIREMENTS A rotor for a dispenser housing (1) at a seed drill for sowing seed or other granular material, the dispenser housing comprising a housing (2) and a rotor (4) controllably driven in the housing for dosing the seed, wherein means (28, 29 , 33) are arranged to reduce the outer diameter of the rotor (4) at least at this point at an increased torque at at least one point along the periphery of the rotor, characterized in that the rotor (4) is divided into two concentrically mounted parts, an outer dosing part (19), of a preferably elastic material, and an inner hub part (20), where the dosing part is arranged to enclose the hub part, that the dosing part (19) has in the orbit direction substantially evenly distributed depressions (5) for dosing the seed and that the outer rotor peripheral part is connected to its hub by means of at least one elastic, in the longitudinal direction of the rotor and radially inwardly extending boom (28) with fastening rib (29) arranged at the end arranged to be received in a herb arranged with a corresponding shape. bait (33) in the hub part (20). . 2. A rotor according to claim 1, characterized in that said recesses (33) are substantially evenly distributed in the circumferential direction of the hub part (20). 3. A rotor according to claim 1 or 2, characterized in that the reduction of the outer diameter of the rotor is similar when the rotor is braked in the opposite direction of rotation. Rotor according to one of Claims 1 to 3, characterized in that the rotor (4) is divided into two concentrically mounted parts, the outer dosing part (19) and the inner hub part (20), the dosing part being arranged to enclose the hub part. Rotor according to one of Claims 1 to 4, characterized in that the dosing part (19) is made of an elastic material. Rotor according to one of Claims 1 to 5, characterized in that the hub part (20) is made of a rigid material. 7. A rotor according to any one of claims 1 to 6, characterized in that said means consists in that said booms (28) are arranged to bend at increased torque in the direction of rotation of the rotor (4).